Activity of Superoxide Dismutase (SOD) Enzyme in the Excretory-Secretory Products of Fasciola hepatica and F. gigantica Parasites.

BACKGROUND
The aim of this study was to compare superoxide dismutase (SOD) activity in Fasciola hepatica and Fasciola gigantica parasites.


MATERIALS
F. gigantica and F. hepatica helminths were collected from abattoir and cultured in buffer media for 4 h at 37 °C. Excretory-Secretory (ES) products were collected, centrifuged and stored at -20(°)C. E-S protein concentration was measured by Bradford method and SOD activity was detected using RANSOD kit (Randox Lab. Crumlin, UK). Statistical t-test was conducted for analysis of results.


RESULTS
Protein concentration for F. hepatica and F. gigantica were obtained 7.293 ug/ml and 19.65 ug/ml respectively and SOD activity as 0.721 U/ml and 1.189 U/ml, in that order. ES protein concentration of two species was significantly different (P<0.05), however the difference of SOD activity of two species was not significant.


CONCLUSION
Two species of Fasciola have comparable SOD biochemical defense enzyme and can help us explain the parasite survival in host tissue.


Introduction
ascioliasis, an infection caused by Fasciola hepatica and Fasciola gigantica, has been considered as an important veterinary disease. In contrast, human fascioliasis has been regarded as a secondary disease (1). Oxygen can be converted to form extremely reactive radicals that bind to DNA, proteins and lipids causing permanent loss of structure F to such biomolecules. The cells have superoxide dismutase (SOD) enzymes to protect them from reactive radicals. SOD, is an enzyme whose active center is engaged by copper, zinc, manganese or iron. SOD is an enzyme that plays major roles in the protection of cells against oxidative damage (2). SOD has been determined in excretion-secretion (ES) of F. hepatica using the xanthine oxidase system and detected in substrate gels (3). Apparently there is no study to compare SOD enzyme activity in the ES of Fasciola species in Iran. Comparison of SOD activity in two species of Fasciola improves our understandings on the impact of species on biochemical defense mechanism of these parasites. For these reseans, enzyme activity assay approach was used for comparative analysis of SOD enzyme activity of ES products from F. hepatica and Fasciola gigantica parasites.

ES Products Collection
Infected sheep livers with Fasciola spp parasites were gathered from abattoirs on the day of slaughter and were transferred to helminthological lab, School of Public Health, Tehran University of Medical Sciences, Iran. The livers were dissected with the scalpel and the adult parasites as alive were collected from hepatic bile ducts. F. hepatica and F. gigantica parasites were identified based on morphological (cone and end parts characterizations) and morphometric (length size) parameters. Collected Fasciola spp. parasites were washed for a minimum of three times in PBS, pH 7.4, to remove host material. Ten F. hepatica and 10 F. gigantica parasites were cultured in RPMI media for 4 h at 37 °C (one parasite in 2 ml of culture media for each). The ES products were clarified via centrifugation at 4000g for 20 min at 4 °C (4). The ES supernatant was concentrated by Sephadex G-25 (5). A volume of 400 µl of ES products from each 2 ml supernatant was collected and stored at -20 °C until use.

Protein measurement
Protein concentration of ES products was measured by Bradford method with BSA standard solutions as duplicate (5).

Enzyme activity assay
SOD activity of ES samples was determined using RANSOD kit (Randox Labs, crumlin, UK) (6). Fasciola spp. ES products and standard solutions were used for the assay of SOD. Absorbance was measured at 505 nm on a Cecil 1021 UV / Visible spectrophotometer (Cecil Instruments Ltd Milton Technical Centre Cambridge ENGLAND) for 30 s after the addition of xanthine oxidase to uninhibited, inhibited and standards tubes and Fasciola samples to inhibited tubes as start reagent and 3 minute after reaction (Table 1). Inhibited percents of standards and parasite samples were calculated according to superoxide dismutase manual of RANSOD kit and inhibition percent curve was prepared (Fig.1). The SOD activity value for each sample was read from this curve and SOD activity was expressed as U/ml. One unit is the amount of SOD that inhibits the rate of formazan dye formation by 50%.

Statistical analysis
To determine the statistical difference between protein concentration and SOD enzyme activity samples mean of F. hepatica and F. gigantica, two-sample (independent) t-test was conducted.

Results
The levels of protein concentration for the parasites' ES products were obtained 7.29 ±4.161ug/ml and 19.65±4.151ug/ml respectively. Total SOD activity and SOD specific activity in solutions were calculated, and the results presented in Table 2, 3.

Discussion
Proteomics analysis has shown the presence of glutathione transferase, fatty acid-binding protein, actin, glycolytic enzymes enolase, cathepsin L, glyceraldehyde-3-phosphate dehydrogenase and sod enzyme in excretorysecretory of F. hepatica (7,8). Piacenza L, has indicated the presence of superoxide dismutase (SOD) activity in the ES of F. gigantic, 7.16 U/mg, and F.hepatica, 25 U/mg (9). Our results showed low SOD activity which may result from none purified fraction of parasite ES. ES materials from F. gigantica suppress the release of oxidants by activated sheep neutrophils. Fractionation of this ES product on Sephadex G-25 has given two peaks of antioxidant activity, one greater than 10 kDa, the other less than 10 kDa (10). In this research one band protein was detected in the sample of not fractionation ES product of both species. In the present work, high concentration of protein in the ES of F. gigantica has not shown direct association with SOD enzyme activity and this may be related to the raise of the other proteins. Although, the results of this research for SOD enzyme activity in sheep liver fluke are reasonable, however, another study must be designed to determine enzyme activity in bovine fascioliasis.

Conclusion
Two species of F. hepatica and F. gigantica have comparable SOD enzymes activity as part of biochemical defense mechanism. These findings can also help us explain the parasite survival in host tissue.